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Found 4 results

  1. I'll just leave it here, since NO ONE will actually reply, respond, like, nor even see this post But if you do, can you please make me happy? Some people might wonder: what's happening with Beyond Eeloo? Is it postponed? FREAK NO! I'll still be continuing it! So, here's a video!
  2. The Century Series A dual story of progress and creation The Century Series before the introduction of the F-106 in 1959. Clockwise from upper right, F-105 Thunderchief, F-101 Voodoo, F-102 Delta Dagger, F-100 Super Sabre, and F-104 Starfighter In the early 1950s, the U.S. aircraft manufacturers had taken the lessons learned from the first generation of jet fighters into account when designing a new suite of aircraft for the modern air war. These planes would keep pace with the rapidly advancing technologies of the time, with powerful engines, radars, afterburners, and complex fire-control systems coming into their own for the first time. The North American F-100 Super Sabre was the first U.S. Jet capable of level supersonic flight The second generation of jet fighters for the newly minted United States Air Force would take the naming convention used by the previous subsonic fighters to a new level. The F-100 Super Sabre led off the now-iconic Century Series, which ultimately saw the addition of five other aircraft. Other aircraft shared the naming series, but only the ones discussed here saw any production beyond the prototype phase. They entered service at a key time for the USAF, fighter command as it was expanding its role and reach to include more roles - peacetime interception of enemy bomber patrols, reconnaissance overflights of key targets, and tactical strikes made by fighter aircraft instead of lumbering bombers. The McDonnell RF-101 Voodoo was a reconnaissance platform which made key low-level overflights of missile sites during the Cuban Missile Crisis Another key development during this time period was the development of the doctrine of air-to-air refueling. The Century Series were the first planes equipped to take on fuel during flight, a technology which extended both operational ranges and mission durations, while also increasing mission readiness. This air-to-air refueling was used for a novel purpose in October of 1957, when during Operation Sun Run, a trio of stripped-down RF-101 Voodoos took off from Los Angeles and over the course of the next seven hours flew to New York and back, after a total of 25 air-to-air refuelings across the fleet. The Convair F-102 Delta Dagger was delayed three years due to difficulties in understanding the aerodynamics of transonic flight These new technologies weren't without their troubles, though. The aerodynamics of supersonic and transonic flight were poorly understood in the 1950's. The design of the experimental aircraft which broke the sound barrier were modeled off of 50 caliber bullets, since that shape was the only one known to be stable at supersonic speeds. Early supersonic planes such as the F-101 and the F-100 dealt with the problem of aerodynamics mainly through experimentation rather than theory, and relied on relatively thin wings and perhaps good fortune on the part of the designers. However, when the first F-102 prototype took to the skies, they realized that something was wrong with the design. The supposed Mach 1.5 interceptor couldn't even go supersonic - and it wasn't entirely the engine's fault. Extensive research led to the rediscovery of the Whitcomb Area Rule, the guiding rule for transonic drag on aircraft, and its implementation on the F-102 allowing it to reach much higher speeds. This is responsible for the shock bodies seen on the engine nozzle (modeled here by the landing gear), as well as the characteristic wasp-waist of many of this era's fighters. It is most noticeable on the F-102 and F-106, but it is present on the F-105 as well. The Lockheed F-104 Starfighter looked like something out of fiction, but soon helped turn spaceflight into science fact In the 1950s, as the space race heated up, both the Soviet Union and the United States began looking for candidates to fill the ranks of their astronaut corps. Both found a natural fit in their highly-trained jet fighter pilots, and particularly the subset of test pilots. This would be enough to cement the relationship between the Starfighter and the first spacecraft, but the F-104 had another unique contribution to the space program. The U.S. Air force needed to train its prospective astronauts to navigate out of atmosphere, using RCS thrusters instead of control surfaces, but had no good way of testing the systems in a full-system way. They tapped Kelly Johnson of Skunkworks to develop a testbed for the new technology, and in 1963, the NF-104A made its first flight. This was a modified starfighter equipped with rocket engines to boost the maximum altitude of the F-104 from 50,000 feet to 120,000 feet in high arcing climbs during which the aerodynamic control surfaces of the fighter would become useless and the pilot would use the RCS system to maneuver instead. This testbed worked, and the technology was proven for use in manned spaceflight. The Republic F-105 Thunderchief was a victim of a changing air war, saved only by the development of the SEAD role for the platform Introduced too late for the war in Korea, the first real tests of the series came in the skies over Vietnam. They soon discovered that air war had changed, and not in a way that favored the jet fighter. The proliferation of radar-directed fire control, nimble and hard to hit enemy MiGs, and the newly-proven surface-to-air missile led to loss rates far higher than any in the USAF upper echelons expected. Hit hardest by this changing battlefield was Republic's F-105 Thunderchief. True to its spiritual ancestor, the P-47 Thunderbolt, Republics newest jet fighter was the heaviest single-engine, single-seat fighter ever built. It was designed to carry bomb loads heavier and faster than a B-17, get in, and get out alive. However, the world of agile fighters,and accurate AA fire firing more powerful munitions meant that being tough wasn't a ticket to survivability any more. The F-105 ultimately became the only U.S. aircraft pulled from frontline fighting due to heavy loss rates, and would have been deemed a complete failure were it not for the development of the Suppression of Enemy Air Defenses (SEAD) team. SEADs squadrons, better known as Wild Weasel squadrons, flew the EF-105, which carried advanced electronics monitering and tracking systems, as well as radar-seeking missiles. They would fly ahead of the strike team into defended air space and bait the enemy radar installations into attempting to lock onto their aircraft. Then, they would track the radar signal and direct guided weapons to destroy the air defenses. Fitting for a squadron whose main job is playing chicken with SAMs, their slogan was "You've got to be (screwing) me", reportedly said by the Captain when he was first tole what his mission would be. The Wild Weasel squadrons live on today, now flying highly modified EA-18 Growler. The Convair F-106 Delta Dart was the last dedicated interceptor fielded by the U.S.A.F, showing a shift in the roles of fighters in the Air Force The Century Series tells the story of a developing air force, and a consolidation of the roles played by its fighters. The F-100, F-101A, and F-105 were fighter-bombers which were designed to tangle with enemy fighters and ground units, while the F-101B, F-102, F-104, and F-106 were dedicated straight-line interceptors designed to get somewhere as fast as possible and take out enemy bomber formations. This dichotomy was a holdover from the days of WWII when a variety of aircraft filled different roles. However, the consolidation of the aircraft industry (it took a large company to enter the jet market, so many mergers occurred and smaller companies exited the market) and the rise of the multi-role fighter ended the lines of the dedicated interceptor and the dedicated fighter-bomber. This is immediately evidenced by the fact that in the U.S., only a single plane is considered a Third Generation fighter (the Century Series, among others, make up the Second Generation): The F-4 Phantom II. The fact that a single aircraft could be used across the USAF, USNAF, and USMC in all manner of roles was revolutionary at the time, and echoes the consolidation present today with the Joint Strike Fighter. The Century Series represented a period of extreme technological growth and progress from the fledgling USAF As with the USAF, the Century Series has been a metric of progress for myself as I continue to push the boundaries of what's possible with stock parts My first act as a stock replica builder, three years ago yesterday, was to upload the entirety of the Century Series to KerbalX. They were fair replicas, nothing extremely fancy, but they were recognizable and set the stage for the years to come (at least for me). But I take a lot of pride in these first steps, since they show the seeds of what the future held in store, both for myself and the rest of us stock replica builders. There is a lot of growth that came between these two screenshots, but what is more interesting is what stayed the same. Larger than expected replicas, allowing for more detail Strange use of parts - airbrakes, parachutes, and communotrons are used to get colors and shapes right Using the craft to tell a story - the early series were the first planes I built in my Jet of the Day series As we move forwards into a new decade, remember to look back and reflect on how far you've come, and just think how much farther you have left to climb. Here's to a good 2020 -Servo
  3. So I’ve lost my save twice now. Luckily the first time I had a backup in PS+. But this time I saved my game then quit and uploaded my save to the PS+ cloud. When I came back to play ,it said “could not load save” so I am screwed cause my back up is a corrupted file. I seriously don’t know why this happened. Last time I quit I made sure to wait for the save icon to go away, and then I quit the game. This needs to be fixed. and one more thing since, I now have to start a new game AGAIN! If I give myself like 1000 extra science/money at the start of my new game, will that disable trophies? I want to try and earn all trophies.
  4. How's everyone's career modes going, and what's the overall game plan, money/science/reputation building strategy, upcoming/progressing missions, etc? Seems there aren't very many of these threads going around anymore, so I thought I'd start one. As far as mine goes, I'm rich, with $5,000,000+ in funds. I just depleted my 2,000+ science by unlocking another 20% of the tech tree, which is now over 80% unlocked. I try never to do a mission unless a contract is offering me money for it, which is why my administration building has strategies in place that take well over 50% of my funds to yield extra science and reputation. Minmus is my main science bank, but I've nearly bled it dry by now, so the Mun is my source of emergency science. I can land 1 Kerbal on either the Mun or Minmus for just $35,000 per launch, and if I hop around on Minmus 2-3 times I can multiply my science gains. (I try to make my launches as cheap and efficient as possible. I try not to clip parts, but my rockets are, I think, still fairly aesthetically pleasing.) I launched two probes that successfully entered orbit, and transmitted science back from, Eve and Ike. I have a Duna mission planned that will cost $120,000; 4 Kerbals will travel to Duna, and 2 will land and return from the surface. (Getting them back down after they've returned will be tough -- I'm considering building an SSTO to fetch them, since, although I have built many successful SSTO's in the past, I have never built one in career mode before.) My end-game will be to have some kind of Grand Tour mission. The rocket will probably cost a million or two, but getting science from every single solid body in the Kerbol system all in one launch should be well worth it! Below, a screenshot from a recent landing on Minmus.
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